EP3453638A1 - Verschlussanordnung - Google Patents

Verschlussanordnung Download PDF

Info

Publication number
EP3453638A1
EP3453638A1 EP18193308.6A EP18193308A EP3453638A1 EP 3453638 A1 EP3453638 A1 EP 3453638A1 EP 18193308 A EP18193308 A EP 18193308A EP 3453638 A1 EP3453638 A1 EP 3453638A1
Authority
EP
European Patent Office
Prior art keywords
cutter
cap
base
spout portion
spout
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP18193308.6A
Other languages
English (en)
French (fr)
Inventor
Gary Berge
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Silgan White Cap LLC
Original Assignee
Silgan White Cap LLC
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Silgan White Cap LLC filed Critical Silgan White Cap LLC
Publication of EP3453638A1 publication Critical patent/EP3453638A1/de
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D51/00Closures not otherwise provided for
    • B65D51/18Arrangements of closures with protective outer cap-like covers or of two or more co-operating closures
    • B65D51/20Caps, lids, or covers co-operating with an inner closure arranged to be opened by piercing, cutting, or tearing
    • B65D51/22Caps, lids, or covers co-operating with an inner closure arranged to be opened by piercing, cutting, or tearing having means for piercing, cutting, or tearing the inner closure
    • B65D51/221Caps, lids, or covers co-operating with an inner closure arranged to be opened by piercing, cutting, or tearing having means for piercing, cutting, or tearing the inner closure a major part of the inner closure being left inside the container after the opening
    • B65D51/222Caps, lids, or covers co-operating with an inner closure arranged to be opened by piercing, cutting, or tearing having means for piercing, cutting, or tearing the inner closure a major part of the inner closure being left inside the container after the opening the piercing or cutting means being integral with, or fixedly attached to, the outer closure
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D5/00Rigid or semi-rigid containers of polygonal cross-section, e.g. boxes, cartons or trays, formed by folding or erecting one or more blanks made of paper
    • B65D5/42Details of containers or of foldable or erectable container blanks
    • B65D5/72Contents-dispensing means
    • B65D5/74Spouts
    • B65D5/746Spouts formed separately from the container
    • B65D5/747Spouts formed separately from the container with means for piercing or cutting the container wall or a membrane connected to said wall
    • B65D5/748Spouts formed separately from the container with means for piercing or cutting the container wall or a membrane connected to said wall a major part of the container wall or membrane being left inside the container after the opening
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D2251/00Details relating to container closures
    • B65D2251/0003Two or more closures
    • B65D2251/0068Lower closure
    • B65D2251/0093Membrane
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D2251/00Details relating to container closures
    • B65D2251/02Grip means
    • B65D2251/023Ribs or recesses
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D2401/00Tamper-indicating means
    • B65D2401/10Tearable part of the container
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D2401/00Tamper-indicating means
    • B65D2401/15Tearable part of the closure
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D41/00Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
    • B65D41/02Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
    • B65D41/04Threaded or like caps or cap-like covers secured by rotation
    • B65D41/0407Threaded or like caps or cap-like covers secured by rotation with integral sealing means
    • B65D41/0414Threaded or like caps or cap-like covers secured by rotation with integral sealing means formed by a plug, collar, flange, rib or the like contacting the internal surface of a container neck
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D47/00Closures with filling and discharging, or with discharging, devices
    • B65D47/04Closures with discharging devices other than pumps
    • B65D47/06Closures with discharging devices other than pumps with pouring spouts or tubes; with discharge nozzles or passages
    • B65D47/08Closures with discharging devices other than pumps with pouring spouts or tubes; with discharge nozzles or passages having articulated or hinged closures
    • B65D47/0804Closures with discharging devices other than pumps with pouring spouts or tubes; with discharge nozzles or passages having articulated or hinged closures integrally formed with the base element provided with the spout or discharge passage
    • B65D47/0809Closures with discharging devices other than pumps with pouring spouts or tubes; with discharge nozzles or passages having articulated or hinged closures integrally formed with the base element provided with the spout or discharge passage and elastically biased towards both the open and the closed positions

Definitions

  • the present invention relates to closure assemblies for containers and, more particularly, to closure assemblies for brick type containers fashioned from paperboard and particularly to those adapted for aseptic packaging of liquids and other foodstuffs.
  • the closure assembly is formed generally of a base, a cutter, and a cap.
  • the closure assembly is configured such that upon initial removal of the cap from the base, the cutter is driven downwards relative to the base so as to form an opening through a portion of the container to which to closure is attached.
  • the packaging material 10 has a multi-layer structure comprising a layer of fibrous material 12, e.g. paper, covered on opposite sides with respective layers 14 and 16 of thermoplastic material, e.g. polyethylene.
  • the packaging material 10 may be provided with a pierceable portion 18 defined by a preferential tear line 20 formed in the layer of fibrous material 12 by a succession of perforations 22.
  • the packaging material 10 also comprises, on a side facing the food product, i.e. on the inner layer of thermoplastic material 16, a layer of barrier material 24, e.g. aluminium, which is in turn covered with one or more layers of additional thermoplastic material 26.
  • a layer of barrier material 24 e.g. aluminium
  • the pierceable portion 18 it is common for the pierceable portion 18 to be defined by respective portions of the layers of thermoplastic material 14, 16 and 26 and barrier material 24, and which together cover an aperture 28 formed in the layer of fibrous material 12.
  • WO95/05996 there is described an assembly comprising a frame having a cylindrical collar defining a pour opening which is fitted about a pierceable portion of a package.
  • a removable cap is provided which screws onto the outside of the frame collar to close the opening while a substantially tubular cutting member is received inside the frame collar and has an end edge with a number of substantially triangular end teeth which cooperate to partly detach the pierceable portion of the package.
  • the cutting member is activated by the removable cap by means of one-way ratchet-type transmission means which is operated during disengagement of the cap from the collar. Upon activation, the cutting member moves in a spiral with respect to the frame from a raised rest position, in which the end teeth face the pierceable portion, into successive lowered cutting positions in which the end teeth interact with the pierceable portion.
  • EP-A-1,088,764 there is described a similar assembly in which the frame and the cutting member are molded in one piece in a preassembly configuration, with the frame and cutting member connected coaxially to each other by a number of breakable radial connecting bridges. More specifically, in the preassembly configuration, the cutting member is joined to the frame at an end edge of the cutting member opposite the end edge having the cutting means which cooperate with the pierceable portion to open the package. Before being fitted to the pierceable portion, the cutting member is inserted inside the collar by breaking the connecting bridges, and simultaneously or subsequently fitting the removable cap to the frame.
  • a closure assembly comprising a spout portion integrally moulded with a cutter portion, the spout portion having first and second ends and a cylindrical wall extending between said first and second ends and the cutter portion having a cutter blade disposed at one end, the cutter portion being frangibly connected to the spout portion by breakable means with the cutter blade received within a space defined by the cylindrical wall of the spout portion and between said first and second ends.
  • the cylindrical wall may define a passage through which the contents of a container with which the closure assembly is associated may be dispensed.
  • the cylindrical wall may be formed integrally with the container.
  • the spout portion may comprise a flange defining an aperture and the cylindrical wall may surround the aperture and extend away from the flange, the cutter blade being located between the aperture and an end of the cylindrical wall remote from the flange.
  • the closure assembly may be moulded integrally as part of a plastics container and define an opening to that container or else may comprise a fitment to be applied to an initially separate container, for example, a paperboard container for the aseptic or non-aseptic packaging of pourable food products, to which the fitment is adhered in registration with a pierceable portion of the container.
  • the cutter blade may comprise one or a plurality of cutting elements and the or each cutting element may comprise one or both of a cutting edge or a cutting tooth.
  • the cutting blade may comprise a serrated cutting edge defining a plurality of cutting teeth.
  • the cutting blade may be arcuate and, if present in the form of multiple cutting elements, those cutting elements may be circumferentially spaced and of the same or different arcuate extents.
  • the cutter portion may be frangibly connected to the spout portion by a web of material comprising a line or region of weakness.
  • the line or region of weakness may comprise a score line or local thinning of the web of material.
  • the cutter portion may be connected to the spout portion by a plurality of circumferentially spaced frangible webs or bridges.
  • the closure assembly comprises a flange for attachment to a separate container
  • the cutter portion is frangibly connected to the spout portion at an end of the cylindrical wall remote from the flange.
  • the cutter portion is frangibly connected to the spout portion at an end of the cylindrical wall remote from the body of the container.
  • an end of the cutter portion remote from the cutter blade may extend away from the spout portion, and the breakable means by which the cutter portion is frangibly connected to the spout portion may be adapted to break upon the application of a force applied to the end of the cutter portion remote from the cutter blade in a direction towards the spout portion.
  • the cutter portion upon application of a force to the cutter portion in a direction towards the spout portion, and following the breaking of the breakable means by which the cutter portion is frangibly connected to the spout portion, the cutter portion may be adapted to be received within the spout portion and to move to an assembled position.
  • the cutter portion may comprise an annular wall and, prior to the breaking of the breakable means, the cutter portion and the spout portion may be coaxially disposed.
  • the force applied to the cutter portion in a direction towards the spout portion may preferably be an axial force.
  • the end of the cutter portion remote from the cutter blade preferably extends away from the spout portion by a distance equal to that travelled by the cutter portion in moving to the assembled position.
  • the assembled position is reached when the end of the cutter portion remote from the cutter blade, and to which the force is applied, is co-planar with the end of the cylindrical wall of the spout portion from which the cutter portion initially extends. This greatly simplifies the assembly process as the force may be applied by an applicator having a lateral dimension sufficient to span both the cutter portion and the cylindrical wall of the spout portion.
  • the end of the cutter portion remote from the cutter blade may comprise an annular rim. Consequently, the assembled position may be reached by applying an axial force to the annular rim of the cutter portion to bring the annular rim into the same plane as that occupied by a rim of the spout portion.
  • This arrangement has the additional advantage that the force applied to assemble the cutter portion to the spout portion is applied to a generally flat, radial surface that lies in a plane generally transverse, if not orthogonal, to the direction of the applied force, rather than a sharp, cutting surface as in the prior art.
  • the spout portion and cutter portion are preferably sized such that, when in the assembled position, the cutter blade is still located between the first and second ends of the cylindrical wall. Accordingly, in an arrangement in which the spout portion comprises a flange defining an aperture and the cylindrical wall surrounds the aperture and extends away from the flange, the cutter blade is preferably still located between the aperture and an end of the cylindrical wall remote from the flange when the cutter portion is in the assembled position. In this way the cutter blade may continue to be protected from accidental damage by the surrounding cylindrical wall of the spout portion even in the assembled position.
  • the cutter portion comprises an annular wall and is disposed coaxially with respect to the cylindrical wall with an end of the annular wall remote from the cutter blade extending axially away from the cylindrical wall; the breakable means by which the cutter portion is frangibly connected to the spout portion is adapted to break upon the application of an axial force applied to said end of the annular wall remote from the cutter blade in a direction towards the spout portion; and, following the breaking of the breakable means, the cutter portion is adapted to be coaxially received within the spout portion and to move to an assembled position, it is advantageous that an inner surface of the cylindrical wall is keyed to an outer surface of the annular wall so as to inhibit relative rotation of the cutter portion and spout portion as the cutter portion is moved to the assembled position.
  • an inner surface of the cylindrical wall is provided with two or more formations that project radially inwardly and the annular wall of the cutter portion is sized so as to be slidingly received between the radially inwardly projecting formations.
  • an outer surface of the annular wall is provided with two or more formations that project radially outwardly and the inner surface of the cylindrical wall is sized so as to slidingly receive the annular wall and the radially outwardly projecting formations.
  • the cutter portion and spout portion are aligned, prior to the breaking of the breakable means, such that the radially inwardly projecting formations on the inner surface of the cylindrical wall are circumferentially interposed between the radially outwardly projecting formations on the outer surface of the annular wall.
  • the radially inwardly projecting formations on the inner surface of the cylindrical wall pass between the radially outwardly projecting formations on the outer surface of the annular wall as the cutter portion moves to the assembled position. Consequently, the formations on the cutter portion do not confrontingly engage the formations on the spout portion before the cutter portion reaches the assembled position.
  • a stop may be provided on one of the inner surface of the cylindrical wall and the outer surface of the annular wall that engages with a formation provided on the other of the inner surface of the cylindrical wall and the outer surface of the annular wall when the cutter portion is in the assembled position.
  • the cutter portion may be not only in a predefined rotational position with respect to the spout portion when in the assembled position, but also in a predefined axial position.
  • the radially outwardly projecting formations provided on the outer surface of the annular wall comprise a thread configuration.
  • the radially inwardly projecting formations provided on the inner surface of the cylindrical wall may be axially aligned with channels defined by radially projecting end surfaces of circumferentially adjacent elements of the thread configuration provided on the outer surface of the annular wall.
  • the inner surface of the cylindrical wall may be provided with two or more additional formations that comprise a thread configuration complementary to that provided on the outer surface of the annular wall.
  • the cutter portion and spout portion are aligned such that, upon axial application of the cutter portion to the spout portion and the cutter portion moving to the assembled position, the thread configuration on the outer surface of the annular wall is rotationally and axially aligned with a start of the complementary thread configuration provided on the inner surface of the cylindrical wall.
  • the closure assembly further comprises a removable cap to selectively close the spout portion when the cutter portion is in the assembled position.
  • the removable cap is preferably provided with a thread configuration for threaded engagement with a complementary thread configuration provided on the spout portion such that, to disengage the respective thread configurations and open the spout portion, the removable cap is rotated with respect to the spout portion.
  • Drive means may be provided between the removable cap and the cutter portion such that, on first rotating the removable cap with respect to the spout portion, the cutter portion is rotated to threadingly engage the thread configuration on the outer surface of the annular wall with the complementary thread configuration provided on the inner surface of the cylindrical wall.
  • the cutter portion may be driven both axially and rotationally in a downward spiral with respect to the spout portion, thereby bringing the cutter blade into engagement with the pierceable portion with which the closure assembly is associated.
  • the cutter blade Upon penetrating and tearing the pierceable portion, the cutter blade creates an opening in communication with the spout portion through which the contents of the package may be dispensed. The spout portion and the package may then be selectively resealed by the reapplication of the removable cap to the spout portion.
  • a container having a closure assembly in accordance with any of those herein described.
  • a method of manufacturing a closure assembly comprising the steps of: providing a spout portion having first and second ends and a cylindrical wall extending between said first and second ends; providing a cutter portion having a cutter blade disposed at one end; disposing the cutter portion with respect to the spout portion such that the cutter blade is received within a space defined by the cylindrical wall of the spout portion and between said first and second ends; and integrally moulding the spout portion and the cutter portion with the cutter portion frangibly connected to the spout portion by breakable means.
  • an end of the cutter portion remote from the cutter blade extends away from the spout portion
  • the method comprises the further step of: applying a force to said end of the cutter portion remote from the cutter blade in a direction towards the spout portion to break the breakable means by which the cutter portion is frangibly connected to the spout portion.
  • the method comprises the further step of: moving the cutter portion to an assembled position in which the cutter portion is received within the spout portion.
  • the cutter portion comprises an annular wall and is disposed coaxially with respect to the cylindrical wall
  • the method comprises the further steps of: providing an inner surface of the cylindrical wall with two or more formations that project radially inwardly, the annular wall of the cutter portion being sized so as to be capable of being slidingly received between the radially inwardly projecting formations; providing an outer surface of the annular wall with two or more formations that project radially outwardly, the inner surface of the cylindrical wall being sized so as to capable of slidingly receiving the annular wall and the radially outwardly projecting formations; and aligning the cutter portion and the spout portion such that, following the breaking of the breakable means, the radially inwardly projecting formations on the inner surface of the cylindrical wall pass between the radially outwardly projecting formations on the outer surface of the annular wall as the cutter portion moves to the assembled position.
  • the method comprises the further steps of: providing a removable cap to selectively close the spout portion when the cutter portion is in the assembled position, the removable cap having a thread configuration for threaded engagement with a complementary thread configuration provided on the spout portion; and applying the removable cap to the spout portion.
  • the removable cap is applied to the spout portion by relative rotational movement between the removable cap and the spout portion such that the thread configuration on the removable cap engages the complementary thread configuration provided on the spout portion.
  • a closure assembly for a container includes a base.
  • the base includes a mounting portion and a neck portion cantered and extending about a vertical axis.
  • a thread is formed about an exterior surface of the neck.
  • a track is formed along an interior surface of the neck.
  • the track is defined by the lower end of a vertical guide that extends generally perpendicularly downwards from an upper portion of the neck and an upper surface of a bottom guide that extends below at least a portion of the lower end of the vertical guide.
  • the closure assembly further includes a cutter having a cylindrical body.
  • a cutting element extends downwards from a lower end of the cylindrical body.
  • a downwardly angled rib extends about an outer surface of the cutter.
  • a fin extends radially inwards from an inner surface of the cylindrical body.
  • the closure assembly further includes a cap having a top panel and a skirt extending downwards from an outer periphery of the top panel.
  • the cap also includes a thread configured to interact with the thread of the base to sealingly attach the cap to the base and a drive tab extending downwards from a lower surface of the top panel.
  • the cutter In an assembled, pre-initial opening configuration of the closure assembly, the cutter is located within the neck portion of the base such the bottommost surface of the cutting element is located above a lowermost portion of the neck portion and the cap is sealingly attached to the base by an engagement of the thread of the cap with the thread of the base.
  • rotation of the cap relative to the base results in the engagement of the drive tab with the fin, causing the cutter to be rotated relative to the base.
  • the rotation of the cutter relative to the base results in the rib entering into and traveling downwards along the track as the cap is rotated relative to the base.
  • the downward rotational movement of the cutter relative to the base causes the cutting element to move to a position in which the bottommost surface of the cutting element extends below the lowermost portion of the cap.
  • a bottommost surface of the rib of the cutter may rest upon the upper surface of the bottom guide.
  • an end engagement surface of the rib may be located adjacent a first vertically extending end surface of the vertical guide.
  • the track may further be defined by a helical guide extending along a downward angle from a second vertically extending end surface of the vertical guide, such that the track is defined between a lower end of the helical guide and the upper surface of the bottom guide.
  • the fins of the cutter may be configured to deflect in a radially outwards direction when the cap attached to the base.
  • the rotation of the cap upon initial removal of the cap may cause rotation of the cutter in the same direction as the direction of the rotation of the cap.
  • the base may further include a retaining structure located about the lowermost portion of the interior surface of the neck portion configured to engage a bottommost surface of the rib to prevent removal of the cutter through a bottom opening defining the lowermost portion of the neck portion.
  • a closure assembly for a container incudes a base having a mounting portion and a neck portion cantered and extending about a vertical axis.
  • a first guide element extends generally perpendicularly downwards along the interior surface of the neck from an upper portion of the neck.
  • the first guide has a width as measured in an angular direction that defines a first distance.
  • a second guide element extends along the interior surface of the neck. At least a portion of the second guide is located below a lowermost surface of the first guide. A track is defined between the first guide element and the second guide element.
  • the closure assembly further includes a cutter having a cylindrical body.
  • One or more cutting elements extend downwards from a lower end of the cylindrical body.
  • One or more fins extend radially inwards from an inner surface of the cylindrical body.
  • Two or more downwardly angled ribs extend about an outer surface of the cylindrical body.
  • the first end of a first rib is spaced apart a second distance as measured in an angular direction from a second end of a second rib located adjacent the first rib.
  • the first distance is substantially the same as the second distance.
  • the cutter In an assembled configuration of the cutter and base, the cutter is positioned within the neck of the base such that the first guide element is positioned in the space defined between the first end of the first rib and the second end of the second rib.
  • the first and second guide elements are arranged to define the track such that upon rotation of the cutter relative to the base, the cutter is moved rotationally downwards relative to the base as the ribs of the cutter travel along the track.
  • the closure assembly may include one or more frangible attachments initially connecting the base to the cutter.
  • the one or more frangible attachments extend between an upper portion of the neck portion of the base and a lower portion of the cylindrical body of the cutter.
  • the attachments may be arranged between the base and the cutter to define a first base and cutter configuration in which the portion of the cutter defining the space between the first end of the first rib and the second end of the second rib extends directly above the portion of the base about which the first guide is formed.
  • the bottommost surfaces of ribs may be configured to rest on top of the uppermost surface of the second guide element in a second base and cutter configuration.
  • the transition from the first configuration to the second configuration of the base and cutter may be effectuated by only an axial movement of the cutter relative to the base, without requiring any rotation of the cutter relative to the base.
  • the closure assembly may include a cap having a top panel, a skirt extending from an outer periphery of the top panel, and a thread extending about an interior surface of the skirt.
  • the transition from the first configuration to the second configuration of the base and cutter may cause by the attachment of the cap to the base.
  • the attachment of the cap to the base may be achieved by threading the thread of the cap onto a thread extending about an outer surface of the neck portion of the base.
  • a method of assembling a closure for a container includes providing a base having a mounting portion, a neck portion cantered and extending about a vertical axis, and a thread formed about an exterior surface of the neck.
  • a guide element is formed about an inner surface of the neck portion.
  • the method of assembling the closure further includes providing a cap having a top panel, a skirt having a thread formed on an inner surface, and one or more drive tabs extending horizontally downwards from a lower surface of the top panel.
  • the method of assembling the closure further includes providing a cutter attached to and integral with the base.
  • the cutter includes a cylindrical body and one or more frangible bridges attached between the cylindrical body of the cutter and the neck portion of the base.
  • a cutting element extends downwards from a lower end of the cylindrical body.
  • One or more catches extend radially inwards from an inner surface of the cylindrical body and are configured to interact with the one or more drive tabs to cause rotation of the cutter.
  • Two or more cams extend about an outer surface of the cutter, and are configured to engage with the guide element of the base to move the cutter from an assembled configuration to a piercing configuration in which the bottommost surface of the cutting element extends below a lowermost portion of the neck portion.
  • the method of assembling the closure further includes attaching the cap to the base to seal the base by engaging the thread of the cap with the thread of the base.
  • the step of attaching the cap is defined by an initial movement of the cap relative to the base in a purely axial direction and a second subsequent movement of the cap relative to the base in a combined rotational and axial direction.
  • the downwards movement of the cap relative to the base causes the breakage of the one or more frangible bridges attaching the cutter and the base and also results in the movement of one or both of the cutter and the base relative to one another such that following the attachment of the cap to the base, the cap, the base, and the cutter are arranged in an assembled configuration in which the cutter is positioned radially inwards within the base and the cap is sealingly engaged with the neck portion of the base.
  • the method of assembling the closure may further include attaching the assembled closure to a container along a portion of the mounting portion.
  • the movement of one or both of the cutter and the base relative to one another to position the cutter within the base may occur without any rotation of the cutter relative to the base, and involves only movement in an axial direction.
  • the step of unscrewing the cap from the base after the assembled closure has been attached to the container may cause a downwards rotational movement of the cutter relative to the base that creates an opening in the container.
  • a closure for a container includes a base having a sealing rim having a first side, a second side and an opening extending from the first to the second side.
  • a membrane is sealed to the second side to cover the opening.
  • a cylindrical neck is formed about a longitudinal axis and extends from the first side of the sealing rim.
  • the neck includes an interior surface surrounding the opening and a track formed on the interior surface.
  • the track is defined by a first elongated guide element formed substantially parallel to the longitudinal axis on the interior surface.
  • the elongated guide element has a tip portion extending at an angle between 5 and 45 degrees relative to the longitudinal axis.
  • a curved guide element is formed between the tip and the membrane.
  • the curved guide element has a surface facing the tip that extends at substantially the same angle as the tip relative to the longitudinal axis.
  • a neck thread extends about an exterior surface of the cylindrical neck.
  • the closure further includes a cutter having a cylindrical body and a cutting element extending downwards from a lower end of the cylindrical body.
  • a downwardly angled rib extends about an outer surface of the cutter and a fin extends radially inwards from an inner surface of the cylindrical body.
  • the closure further includes a cap having a top panel, a skirt extending downwards from an outer periphery of the top panel, and a thread configured to interact with the neck thread to sealingly attach the cap to the neck.
  • a drive tab extends downwards from a lower surface of the top panel.
  • the cutter When the cap is sealed to the neck the cutter is located within the neck of the base such the bottommost surface of the cutting element is located above the membrane.
  • rotation of the cap relative to the neck results in the engagement of the drive tab with the fin, causing the cutter to be rotated relative to the base.
  • the rotation of the cutter relative to the base results in the rib entering into the track to move the cutter into engagement with the membrane to cut the membrane as the cap is rotated.
  • a closure assembly in one embodiment, includes a spout portion integrally moulded with a cutter portion.
  • the spout portion has first and second ends and a cylindrical wall extending between said first and second ends.
  • the cutter portion has a cutter blade disposed at one end.
  • the cutter portion is frangibly connected to the spout portion by breakable elements. The cutter blade is received within a space defined by the cylindrical wall of the spout portion and between the first and second ends.
  • the spout portion may optionally include a flange defining an aperture and the cylindrical wall may optionally surround the aperture and extend away from the flange.
  • the cutter blade may optionally be located between the aperture and an end of the cylindrical wall remote from the flange.
  • the cutter portion may optionally be frangibly connected to the spout portion at an end of the cylindrical wall remote from the flange.
  • An end of the cutter portion remote from the cutter blade may optionally extend away from the spout portion and the breakable elements by which the cutter portion is frangibly connected to the spout portion and may optionally be adapted to break upon the application of a force applied to the end of the cutter portion remote from the cutter blade in a direction towards the spout portion.
  • the cutter portion may optionally be adapted to be received within the spout portion and to move to an assembled position.
  • the end of the cutter portion remote from the cutter blade may optionally extend away from the spout portion by a distance equal to that travelled by the cutter portion in moving to the assembled position.
  • the cutter portion may optionally include an annular wall and be disposed coaxially with respect to the cylindrical wall with an end of the annular wall remote from the cutter blade extending axially away from the cylindrical wall.
  • the breakable elements by which the cutter portion is frangibly connected to the spout portion may optionally be adapted to break upon the application of an axial force applied to said end of the annular wall remote from the cutter blade in a direction towards the spout portion.
  • the cutter portion may optionally be adapted to be coaxially received within the spout portion and to move to an assembled position.
  • the end of the annular wall remote from the cutter blade may optionally terminate in a generally flat surface lying in a plane generally transverse, if not orthogonal, to the direction of an applied axial force.
  • An inner surface of the cylindrical wall may optionally be keyed to an outer surface of the annular wall so as to inhibit relative rotation of the cutter portion and spout portion as the cutter portion is moved to the assembled position.
  • An inner surface of the cylindrical wall may optionally be provided with two or more formations that project radially inwardly and the annular wall of the cutter portion may optionally be sized so as to be slidingly received between the radially inwardly projecting formations.
  • An outer surface of the annular wall may optionally be provided with two or more formations that project radially outwardly and the inner surface of the cylindrical wall may optionally be sized so as to slidingly receive the annular wall and the radially outwardly projecting formations.
  • the cutter portion and spout portion may optionally be aligned such that the radially inwardly projecting formations on the inner surface of the cylindrical wall are circumferentially interposed between the radially outwardly projecting formations on the outer surface of the annular wall.
  • the cutter portion and spout portion may optionally be aligned such that, following the breaking of the breakable means, the radially inwardly projecting formations on the inner surface of the cylindrical wall pass between the radially outwardly projecting formations on the outer surface of the annular wall as the cutter portion moves to the assembled position.
  • the cutter portion and spout portion may optionally be aligned such that, upon axial application of the cutter portion to the spout portion, the formations on the cutter portion do not confrontingly engage the formations on the spout portion before the cutter portion reaches the assembled position.
  • a stop may optionally be provided on one of the inner surface of the cylindrical wall and the outer surface of the annular wall that engages with a formation provided on the other of the inner surface of the cylindrical wall and the outer surface of the annular wall when the cutter portion is in the assembled position.
  • the radially outwardly projecting formations provided on the outer surface of the annular wall may optionally include a thread configuration.
  • the radially inwardly projecting formations provided on the inner surface of the cylindrical wall may optionally be axially aligned with channels defined by radially projecting end surfaces of circumferentially adjacent elements of the thread configuration provided on the outer surface of the annular wall.
  • the inner surface of the cylindrical wall may optionally be provided with two or more additional formations that comprise a thread configuration complementary to that provided on the outer surface of the annular wall.
  • the cutter portion and spout portion may optionally be aligned such that, upon axial application of the cutter portion to the spout portion and the cutter portion moving to the assembled position, the thread configuration on the outer surface of the annular wall is rotationally and axially aligned with a start of the complementary thread configuration provided on the inner surface of the cylindrical wall.
  • a recloseable cap to selectively close the spout portion when the cutter portion is in the assembled position may optionally be provided.
  • the recloseable cap may optionally have a thread configuration for threaded engagement with a complementary thread configuration provided on the spout portion such that, to disengage the respective thread configurations and open the spout portion, the recloseable cap may optionally be rotated with respect to the spout portion.
  • Drive elements may optionally be provided between the recloseable cap and the cutter portion such that, on first rotating the recloseable cap with respect to the spout portion, the cutter portion is rotated to threadingly engage the thread configuration on the outer surface of the annular wall with the complementary thread configuration provided on the inner surface of the cylindrical wall.
  • a method of manufacturing a closure assembly may include the steps of providing a spout portion having first and second ends and a cylindrical wall extending between said first and second ends; providing a cutter portion having a cutter blade disposed at one end; disposing the cutter portion with respect to the spout portion such that the cutter blade is received within a space defined by the cylindrical wall of the spout portion and between said first and second ends; and integrally moulding the spout portion and the cutter portion with the cutter portion frangibly connected to the spout portion by breakable elements.
  • An end of the cutter portion remote from the cutter blade may optionally extend away from the spout portion, and the method may optionally include the further step of: applying a force to the end of the cutter portion remote from the cutter blade in a direction towards the spout portion to break the breakable elements by which the cutter portion is frangibly connected to the spout portion.
  • the method may optionally include the further step of: moving the cutter portion to an assembled position in which the cutter portion is received within the spout portion.
  • the cutter portion may optionally include an annular wall and may optionally be disposed coaxially with respect to the cylindrical wall, and the method may optionally include the further steps of providing an inner surface of the cylindrical wall with two or more formations that project radially inwardly, the annular wall of the cutter portion optionally being sized so as to be capable of being slidingly received between the radially inwardly projecting formations; providing an outer surface of the annular wall with two or more formations that project radially outwardly, the inner surface of the cylindrical wall optionally being sized so as to capable of slidingly receiving the annular wall and the radially outwardly projecting formations; and aligning the cutter portion and the spout portion such that, following the breaking of the breakable elements, the radially inwardly projecting formations on the inner surface of the cylindrical wall pass between the radially outwardly projecting formations on the outer surface of the annular wall as the cutter portion moves to the assembled position.
  • the method may optionally include the further steps of: providing a recloseable cap to selectively close the spout portion when the cutter portion is in the assembled position, the recloseable cap having a thread configuration for threaded engagement with a complementary thread configuration provided on the spout portion; and applying the recloseable cap to the spout portion.
  • the recloseable cap may optionally be applied to the spout portion by relative rotational movement between the recloseable cap and the spout portion such that the thread configuration on the recloseable cap engages the complementary thread configuration provided on the spout portion.
  • a closure assembly embodying the present invention may take the form of a fitment 30 comprising a spout portion 32 and a cutter portion 34, and a recloseable cap 36.
  • the spout portion 32 and the cutter portion 34 may be integrally moulded as one piece with the reclosable cap 36 moulded separately. Consequently, the spout portion 32 and cutter portion 34 may be moulded of a plastics material having a first colour while the reclosable cap 36 may be moulded of a plastics material having a second, contrasting colour.
  • the spout portion 32 comprises a flange 38 having substantially smooth, planar upper and lower surfaces 40 and 42.
  • the flange 38 is bounded on opposite sides by two parallel straight edges 44 and 46 and at opposite ends by two arcuate edges 48 and 50 having different radii of curvature.
  • the flange 38 defines an axis of symmetry A midway between, and parallel to, the parallel straight edges 44 and 46.
  • a circular aperture 52 centred on the axis of symmetry A, pierces the flange 38 in such a way as to be located closer to one of the arcuate edges 48 than the other, thereby dividing the flange 38 into forward and rear portions 54 and 56 in which the forward portion of the flange 54 is of larger surface area than the rear portion of the flange 56.
  • the centre of curvature of the two arcuate edges 48 and 50 coincide with the centre of the circular aperture 52 and are arranged such that the radius of curvature of the arcuate edge 50 that partially defines the forward portion of the flange 54 is larger than that of the arcuate edge 48 that partially defines the rear portion of the flange 56.
  • Two upstanding elongate bumpers 58 and 60 are positioned on the upper flange surface 40 at right angles to, and at opposite ends of, the axis of symmetry A. In so doing the elongate bumpers 58 and 60 extend substantially parallel to a local tangent to the respective arcuate edges 48 and 50 and serve to prevent the flange of one fitment riding up on the flange of another when multiple fitments are conveyed from one location to another during production or subsequent processing.
  • the upper flange surface 40 is also provided with two pairs of elongate spacers 62 and 64 positioned close to, and on opposite sides of, the circular aperture 52.
  • Each pair of elongate spacers 62 and 64 comprise a respective long and short spacer 66 and 68 which are centred on the axis symmetry A and extend at right angles to it. Consequently, the long and short spacers 66 and 68 extend substantially parallel to each other and are mutually spaced with the long spacer 66 of each of the pair of elongate spacers 62 and 64 positioned closest to the circular aperture 52. As shown in Figure 4 , the edge of each of the short spacers 68 furthest from the circular aperture 52 may be slightly curved with a centre of curvature that coincides with the centre of the circular aperture 52. For ease of moulding, the long and short spacers 66 and 68 of each pair of elongate spacers 62 and 64 may be joined to each other by a short web of material 70 that extends along the axis of symmetry A.
  • the lower flange surface 42 which is otherwise smooth, is provided with a shallow circular bead 72 that extends around the periphery of the circular aperture 52 and projects, albeit slightly, downwardly away from the lower flange surface 42 and radially inwardly toward a central axis B that extends through the centre of the circular aperture 52 and at right angles to the plane of the flange 38 and the axis of symmetry A.
  • a cylindrical wall 74 surrounds the periphery of the circular aperture 52 and projects upwardly, away from the upper flange surface 40, to form a neck of the spout portion 32.
  • a substantially smooth external surface 76 of the cylindrical wall 74 extends upwardly before merging with a radially outwardly projecting wall 78 to define a first shoulder 80.
  • the radially outwardly projecting wall 78 merges with an upwardly extending cylindrical surface 82 of increased diameter compared to the external surface 76.
  • the upwardly extending cylindrical surface 82 merges with a radially outwardly projecting locking wall 84 to define a second shoulder 86.
  • the locking wall 84 merges with an upwardly and radially inwardly inclined surface 88 which, together with the locking wall 84, defines an annular locking bead 90.
  • the upwardly and radially inwardly inclined surface 88 merges with a cylindrical neck stretch portion 92 of substantially the same diameter as the external surface 76.
  • the cylindrical neck stretch portion 92 is provided with engagement means with which to engage complimentary engagement means provided on the reclosable cap 36.
  • the engagement means provided on the cylindrical neck stretch portion 92 takes the form of an uninterrupted single start, male helical thread configuration 94. It will be apparent however, that the engagement means may take a number of different forms and, in particular, need not be limited to an uninterrupted thread, nor one that is male or one that comprises a single start. Indeed, the engagement means may comprise a multi-start or multi-lead thread comprising two, three or four leads as appropriate. The engagement means may also comprise five or more leads if so desired. Gererally, speaking however, it is preferable to require at least one complete turn of the reclosable cap 36 to disengage the respective engagement means and more preferable a rotation of between 360 and 720 degrees.
  • the single thread of the thread configuration 94 extends around the circumference of the cylindrical neck stretch portion 92 for just over 720 degrees or two full turns.
  • threads of a lesser or greater extent may also be employed.
  • the thread configuration 94 has a fine thread density to limit the vertical float of the reclosable cap 36 on the spout portion 32.
  • the thread density preferably lies within a range of between 12 and 20 threads per linear inch. Most preferably of all is a thread density of approximately 14.5 threads per linear inch.
  • cylindrical neck stretch portion 92 merges with a second upwardly and radially inwardly inclined surface 96 which, in turn, terminates in an annular rim 98.
  • the annular rim 98 merges with a substantially smooth inner surface 100 of the cylindrical wall 74 which extends from the annular rim 98 down to the periphery of the circular aperture 52 where it merges with the shallow circular bead 72.
  • the substantially smooth inner surface 100 is provided with a respective one of four radially inwardly projection formations 102 that constitute a localised thickening of the cylindrical wall 74.
  • Each radially inwardly projecting formation 102 extends vertically downwardly from a radially inner edge of the annular rim 98 and comprises a substantially rectangular, radially inner surface 104 arranged with the long sides of the rectangle extending vertically downwardly and the short sides of the rectangle separating two radially directed stop surfaces 106 and 108 that extend at right angles from the radially inner surface 104 and merge, again at right angles, with the substantially smooth inner surface 100.
  • Each radially inwardly projecting formation 102 extends to a location approximately half way down the substantially smooth inner surface 100 whereupon, at an end remote from the annular rim 98, it merges with a respective male helical thread segment 110.
  • Each helical thread segment 110 extends around the substantially smooth inner surface 100 in the opposite direction to the helical thread configuration 94 and at steeper angle. Furthermore, each helical thread segment 110 extends around the substantially smooth inner surface 100 for an angle of only approximately 22 degrees.
  • each of the four radially inwardly projecting formations 102 is also associated with a respective one of four guide formations 112 that project radially inwardly from the substantially smooth inner surface 100 and define a helical thread portion 114 which merges, at an upper end, with a substantially horizontal circumferential portion 116.
  • the helical thread portions 114 extend around the substantially smooth inner surface 100 in the same direction as the helical thread segments 110 (i.e. with opposite direction to the helical thread configuration 94) and at the same steeper angle.
  • each of the guide formations 112 is so spaced with respect to its associated radially inwardly projecting formation 102, with the guide formation 112 circumferentially overlapping the radially inwardly projecting formation 102 and the helical thread portion 114 positioned below, and parallel to, the associated helical thread segment 110 that a helical channel 118 is defined between the two.
  • Each of the four guide formations 112 extends around the substantially smooth inner surface 100 for an angle of approximately 22 degrees with the result that an end of one substantially horizontal circumferential portion 116 is angularly spaced from an end of the helical thread segment 110 of the next circumferentially adjacent radially inwardly projecting formation 102. Nonetheless, the two, the substantially horizontal circumferential portion 116 of a guide formation 112 associated with a first radially inwardly projecting formation 102 and the end of the helical thread segment 110 remote from the substantially rectangular inner surface 104 of the next circumferentially adjacent radially inwardly projecting formation 102, are at substantially the same height up the substantially smooth inner surface 100.
  • the cutter portion 34 comprises an annular wall 120 having an outer diameter that is sized so as to be able to be slidingly received between the radially inner surfaces 104 of diametrically opposed radially inwardly projecting formations 102.
  • the annular wall 120 comprises a substantially smooth outer surface 122 on which are provided at four locations, circumferentially spaced by 90 degrees, a respective one of four male thread elements 124 which are complimentary in terms of pitch and handedness to the helical channels 118 defined between associated pairs of radially inwardly projecting formations 102 and guide formations 112 on the substantially smooth inner surface 100 of the cylindrical wall 74 of the spout portion 32.
  • the thread elements 124 project radially outwardly from the substantially smooth outer surface 122 and so contribute to an overall diameter that, from the crest of one thread element 124 to the crest of a diametrically opposed thread element, is larger than the distance between the radially inner surfaces 104 of diametrically opposed radially inwardly projecting formations 102 but is nonetheless smaller than the internal diameter of the cylindrical wall 74.
  • Each of the four thread elements 124 extends around the substantially smooth outer surface 122 for an angle of approximately 65 degrees and ends abruptly in a substantially radially projecting end surface 125.
  • the thread elements 124 do not overlap each other circumferentially and instead define vertical channels 126 between the radially projecting end surfaces 125 of circumferentially adjacent thread elements 124 where there is no interruption to the substantially smooth outer surface 122 from an upper edge of the annular wall 120 to a lower edge.
  • the annular wall 120 merges with a downwardly and radially inwardly inclined surface 128 while, at the upper edge, the annular wall 120 terminates in an annular rim 130.
  • the annular rim 130 merges with a substantially smooth inner surface 132 of the annular wall 120 which, at an end remote from the annular rim 130, in turn, merges with the downwardly and radially inwardly inclined surface 128.
  • the substantially smooth inner surface 132 is provided with a respective one of four inwardly directed tabs 134.
  • Each of the tabs 134 is joined to the substantially smooth inner surface 132 along a vertical line that extends from the radially inner edge of the annular rim 130 to the junction where the substantially smooth inner surface 132 merges with the downwardly and radially inwardly inclined surface 128.
  • the inwardly directed tabs 134 are swept in a slight arc so as to project in a generally clockwise direction when viewed from above and so as to present a generally radially inwardly facing surface 136 and generally radially outwardly facing surface 138.
  • the tabs 134 gradually thin as they extend away from the annular wall 120 and, in projecting in a generally clockwise direction, the generally radially outwardly facing surface 138 cooperates with the adjacent substantially smooth inner surface 132 to define a vertical pocket 140 in which the two surfaces subtend an acute inclined angle.
  • the annular wall 120 is provided with first and second arcuate cutting blades 142 and 144 which are circumferentially spaced and differ in their respective arcuate extents with the first arcuate cutting blade 142 extending circumferentially for an angle of approximately 112 degrees and the second arcuate cutting blade 144 extending circumferentially for an angle of approximately 45 degrees.
  • the first and second arcuate cutting blades 142 and 144 are circumferentially spaced by an angle of approximately 67 degrees. In other respects the two arcuate cutting blades 142 and 144 are similar.
  • Each comprises a downwardly extending arcuate wall 146 that depends from a lower edge of the annular wall 120 with an external surface 148 of the arcuate wall 146 lying in the same cylindrical plane as the substantially smooth inner surface 132 and an internal surface 150 of the arcuate wall 146 merging with the substantially smooth inner surface 132 at an upper edge via an upwardly and radially outwardly inclined surface 152.
  • the external surface 148 merges with a downwardly and radially inwardly inclined surface 154 that meets the internal surface 150 to define a cutting edge 156.
  • the radially inwardly inclined surface 154 is preferably scalloped to produce a serrated cutting edge 156 comprising a plurality of cutting teeth 158 along the arcuate extent of the cutting blades 142 and 144.
  • the spout portion 32 and the cutter portion 34 thus described are integrally moulded in one piece with the cutter portion 34 disposed above the spout portion 32 and the first and second arcuate cutting blades 142 and 144 received within the volume defined by the cylindrical wall 74 and spaced above the circular aperture 52.
  • the cutter portion 34 is frangibly connected to the spout portion 32 by a plurality of circumferentially spaced frangible webs 160 that extend from the annular wall 120, close to where the substantially smooth outer surface 122 merges with the downwardly and radially inclined surface 128, to the cylindrical wall 74, close to where a radially inner edge of the annular rim 98 merges with the substantially smooth inner surface 100.
  • there are four such frangible webs 160 which are circumferentially spaced by 90 degrees, and occupy locations on the spout portion 32 midway between circumferentially adjacent radially inwardly projecting formations 102.
  • the frangible webs 160 also serve to orientate the cutter portion 34 with respect to the spout portion 32 in such a way that the radially inwardly projecting formations 102 are vertically aligned with the vertical channels 126 defined between the radially projecting end surfaces 125 of circumferentially adjacent thread elements 124.
  • the reclosable cap 36 comprises a circular top 162 having an under surface 164.
  • the circular top 162 merges at a radially outer edge with a downwardly and radially outwardly inclined surface 166 which, in turn, merges with a depending annular side wall 168 to form a downwardly extending upper skirt portion 170.
  • the depending annular side wall 168 is provided on an inner surface 172 with complimentary engagement means for repeated and releasable engagement with the engagement means provided on the cylindrical neck stretch portion 92 of the spout portion 32.
  • these engagement means may take many forms but, in the example shown, comprise an uninterrupted, single-start, male helical thread configuration 174 having a thread density of 14.5 threads per linear inch.
  • the single thread of the thread configuration 174 extends approximately 480 degrees around the inner surface 172 of the depending annular side wall 168.
  • this thread length may be increased or decreased if desired.
  • the thread may extend in a range from 450 to more than 550 degrees.
  • the thread density is not intended to be limited to being about 14.5 threads per linear inch but, nevertheless, preferably lies within the range from about 12 to about 20 threads per linear inch.
  • the complimentary engagement means is not limited to an uninterrupted thread or to one that is male or to one that comprises a single start. Indeed, the complimentary engagement means may comprise a multi-start or multi-lead thread comprising two, three or four leads as appropriate. The engagement means may also comprise five or more leads if so desired. Generally speaking however, it is preferable to require at least one complete turn of the reclosable cap 36 to disengage the respective engagement means and more preferably a rotation of between 360 and 720 degrees.
  • the thread(s) of the male helical thread configuration 174 may be provided with an appropriate cross-sectional shape.
  • the thread(s) may be formed with an asymmetric cross-section or else may be made less pronounced.
  • the interior of the reclosable cap 36 is provided with an annular plug 176 which depends from the under surface 164 of the circular top 162 and which is spaced radially inwardly of the depending annular side wall 168.
  • annular plug 176 which depends from the under surface 164 of the circular top 162 and which is spaced radially inwardly of the depending annular side wall 168.
  • drive members 178 that are circumferentially spaced at 90 degree intervals and which are located radially inwardly of the annular plug 176.
  • Each of the four drive members 178 has the same configuration and comprises a vertical tab of arcuate cross-section with the centre of curvature extending coaxially with that of the depending annular side wall 168.
  • Each tab has a circumferential extent that is larger than its radial dimension and extends from the under surface 164 to a location below the lowest point of the helical thread configuration 174 and just above a lower edge of the upper skirt portion 170.
  • a lower corner of each of the tabs is shaped to provide an arcuate leading edge 188 when rotated in a clockwise direction as seen from above.
  • the depending annular side wall 168 is provided on its outer surface with a plurality of circumferentially spaced, vertically extending ribs 190 which serve as knurls to facilitate the gripping of the reclosable cap 36 by a user.
  • a small downwardly directed dimple 192 is formed in the centre of the circular top 162 so that any flash left after the reclosable cap 36 has been molded does not project above a plane defined by the upper surface of the circular top 162.
  • the reclosable cap 36 is additionally provided with an annular band 194 which is formed as an extension of the depending annular side wall 168 at a position remote from the circular top 162 and beneath the male helical thread configuration 174.
  • an upper exterior annular surface 196 of the annular band 194 occupies an extension of the same cylindrical surface as that defined by the outer surface of depending annular side wall 168.
  • the upper exterior annular surface 196 merges, at an end remote from the depending annular side wall 168, with a downwardly and radially outwardly inclined surface 198 which, in turn, merges with a lower exterior annular surface 200 of slightly increased diameter compared to the upper exterior annular surface 196.
  • the lower annular surface 200 terminates in a radially extending annular rim 202.
  • annular band 194 On an interior of the annular band 194, an interior annular surface 204 extends downwardly and merges with a downwardly and radially outwardly inclined surface 206 before, once again, terminating in the radially extending annular rim 202. At a plurality of circumferentially spaced locations, the annular band 194 is provided with a series of radially inwardly directed bumps 208 on the interior annular surface 204.
  • the bumps 208 take the form of a slotted bead with each of the bumps 208 defined by a respective downwardly and radially inwardly inclined surface 210 which merges, at an upper end, with the interior annular surface 204 and, at a lower end, with a radially inner surface 212; and by a respective downwardly and radially outwardly inclined surface 214 which merges, at an upper end, with the radially inner surface 212 and, at a lower end, with the downwardly and radially outwardly inclined surface 206 of which it forms a continuation.
  • Each of the bumps 208 is limited circumferentially by radially extending end surfaces 216 and is separated from the circumferentially adjacent bump 208 by a gap that is approximately twice the circumferential extent of the bump itself.
  • the annular band 194 is joined to a lower edge of the upper skirt portion 170 by a plurality of circumferentially disposed frangible webs 218.
  • the annular band 194 may be formed in one piece with the upper skirt portion 170 and the combination subject to a circumferential slitting operation to so cut the reclosable cap 36 as to separate the annular band 194 from the upper skirt portion 170 while leaving the plurality of circumferentially disposed frangible webs 218.
  • a downwardly directed axial force is applied to the annular rim 130 of the cutter portion while at the same time supporting the spout portion 32.
  • This force causes the frangible webs 160 to break and the cutter portion 34 to move further into the spout portion 32.
  • This movement is facilitated by the downwardly and radially inwardly inclined surface 128 which, prior to the breaking of the frangible webs 160, occupies a position radially inward of, and adjacent to, a radially inner edge of the annular rim 98.
  • the radially inner edge of the annular rim 98 moves up the bevelled surface of the annular wall 120 represented by the downwardly and radially inwardly inclined surface 128 until such time as the cutter portion 34 has moved sufficiently into the spout portion 32 that the substantially smooth outer surface 122 of the annular wall 120 is in engagement with the radially inner surfaces 104 of the four, circumferentially spaced, radially inwardly projecting formations 102 provided on the substantially smooth inner surface 100 of the cylindrical wall 74.
  • the diameter of the annular wall 120 is sized so as to be slidingly received between diametrically opposed radially inwardly projecting formations 102, continued downward movement of the cutter portion 34 into the spout portion 32 as a result of the axial force applied to the annular rim 130 is unimpeded. Furthermore, this movement continues to be unimpeded as the relative movement between the cutter portion 34 and the spout portion 32 causes the radially inwardly projecting formations 102 to slide along the vertical channels 126 defined between the radially projecting end surfaces 125 of circumferentially adjacent thread elements 124 with which the radially inwardly projecting formations 102 were initially aligned prior to the breaking of the frangible webs 160.
  • This engagement prevents further axial movement of the cutter portion 34 with respect to the spout portion 32 and marks the completion of the process whereby the two components of the fitment 30 are assembled together.
  • the completion of the downward movement of the cutter portion 34 with respect to the spout portion 32 brings the annular rim 130 into the same plane as that occupied by the annular rim 98.
  • the first and second cutting blades 142 and 144 move unhindered past the radially inwardly projecting formations 102 and associated guide formations 112 since the external surface 148 of the downwardly extending arcuate wall 146 with which the cutting blades 142 and 144 are associated lies in the same cylindrical plane as the substantially smooth inner surface 132 of the annular wall 120 and, consequently, radially inwardly of the radially inwardly projecting formations 102 and associated guide formations 112 with which the substantially smooth inner surface 100 of the cylindrical wall 74 is provided.
  • the first and second cutting blades 142 and 144 have moved to a position slightly above the circular aperture 52 and with the cutting edge 156 and cutting teeth 158 yet to cross a plane defined by the lower flange surface 42.
  • the cutter portion 34 is formed in such a way that the first and second cutting blades 142 and 144 are located within a volume defined by the cylindrical wall 74 of the spout portion 32 with the cutting edge 156 and cutting teeth 158 disposed between the annular rim 98 and the circular aperture 52.
  • This provides the advantage of protecting the first and second cutting blades 142 and 144 from accidental damage during subsequent handling of the one piece component prior to assembly. Such damage might serve to blunt or misshape the cutting edge 156 or cutting teeth 158 thereby adversely affecting the ability of the cutting blades 142 and 144 to penetrate and tear open the pierceable portion 18 and so provide access to the contents of the container package.
  • the present invention also serves to avoid any damage to whatever is used to apply the necessary force to assemble the cutter portion 34 to the spout portion 32 since, rather than applying an upward force to a component comprising a sharp edge, i.e. the cutting blade, a downward force is applied to an annular rim 130 which, far from comprising a sharp edge, presents a substantially planar annular surface.
  • the cutter portion 34 may be assembled to the spout portion 32 without the need for the thread elements 124 to ride over the helical thread segments 110 or associated guide formations 112. Indeed, upon assembly of the cutter portion 34 to the spout portion 32, the thread elements 124 sweep over a region of the substantially smooth inner surface 100 that is devoid of projections and the thread elements 124 are consequently not required to flex or deflect in any way. This greatly reduces the axial force necessary to assemble the cutter portion 34 to the spout portion 32 and the consequent risk of damage to either component.
  • the described embodiment in contrast to the prior art, provides an axial stop to prevent over insertion of the cutter portion 34.
  • the cutter portion 34 sized so as to achieve the fully assembled position once the annular rim 130 has been pushed down to occupy the same plane as the annular rim 98 of the spout portion 32. This greatly facilitates the application process and actually makes it difficult to over insert the cutter portion 34.
  • the lowest extremity of the thread elements 124 abuts an upper edge of the substantially horizontal circumferential portions 116 of the guide formations 112. This abutment also prevents further axial displacement of the cutter portion 34 within the spout portion 32 and, together with the engagement of the radially inwardly projecting formations 102 in the vertical channels 126, ensures that the two components are fully assembled with the thread elements 124 optimally aligned with the entrance to the helical channels 118 and with the cutting blades 142 and 144 adjacent the circular aperture 52 and the cutting edge 156 and cutting teeth 158 disposed just above a plane defined by the lower flange surface 42.
  • the reclosable cap 36 may be applied to the spout portion 32. This may be accomplished by an axial application of the reclosable cap 36 to the spout portion 32 with the thread configuration 174 on the inner surface 172 of the depending annular side wall 168 slipping past the thread configuration 94 on the cylindrical neck stretch portion 92.
  • an application requires the spout portion 32 and reclosable cap 36 to be orientated with respect to each other prior to application in order to ensure an optimal thread engagement. Accordingly, it is preferred that the reclosable cap 36 be applied to the spout portion 32 by means of relative rotation such that the two thread configurations 94 and 174 interengage.
  • the downwardly depending drive members 178 are received within the annular wall 120 of the cutter portion 34 and rotate. As they do so, the radially outwardly facing surfaces 182 contact the generally radially inwardly facing surfaces 136 of the inwardly directed tabs 134 with the arcuate leading edges 188 making the initial engagement.
  • the ends of downwardly depending drive members 178 remote from the under surface 164 deflect radially inwardly and slide over the swept arc of the inwardly directed tabs 134.
  • the drive members 178 Upon reaching the end of the inwardly directed tabs 134 remote from the substantially smooth inner surface 132 and continuing to turn, the drive members 178 disengage from the inwardly directed tabs 134 and resiliently return to their initial vertical orientation with an audible click.
  • the annular rim 202 of the annular band 194 is brought into contact with the annular locking bead 90.
  • Continued threaded engagement causes the radially inwardly directed bumps 208 on the interior annular surface 204 to ride over the annular locking bead 90 facilitated by the flexibility and resilience of the material of the reclosable cap 36, the circumferential spacing of the bumps 208, and the interengagement of the upwardly and radially inwardly inclined surface 88 and the downwardly and radially outwardly inclined surfaces 206 and 214.
  • the bumps 208 snap back by virtue of their own resilience to occupy a position beneath the locking bead 90 with the radially inner surface 212 confronting the upwardly extending cylindrical surface 82 and the downwardly and radially inwardly inclined surface 210 below the radially outwardly projecting locking wall 84.
  • the annular plug 176 on the under surface 164 of the circular top 162 engages the substantially smooth inner surface 100 of the cylindrical wall 74 adjacent the annular rim 98.
  • further rotation of the reclosable cap 36 with respect to the spout portion 32 is prevented by the engagement of the under surface 164 of the circular top 162 with the annular rim 98.
  • the closure assembly may be transported from the manufacturer to the packaging plant of the supplier of the contents of the package.
  • the closure assembly may have a layer of adhesive applied to the lower flange surface 24 and then be presented to the container to be glued or bonded to the pierceable portion 18.
  • the reclosable cap 36 In order to open the container and gain access to the contents, the reclosable cap 36 is grasped, facilitated by means of the vertically extending ribs 190, and rotated in an anti-clockwise direction as viewed from above. This rotation causes the helical thread configuration 174 on the inner surface 172 of the depending annular side wall 168 to begin to threadingly disengage from the helical thread configuration 94 on the cylindrical neck stretch portion 92 of the cylindrical wall 74. As the reclosable cap 36 moves up the threads of the spout portion 32 so too does the upper skirt portion 170. However, this upward movement is resisted by the interengagement of the radially inwardly directed bumps 208 and the annular locking bead 90.
  • the annular band 194 is pulled with it by means of the frangible webs 218, thereby bringing the downwardly and radially inwardly inclined surfaces 210 of the inwardly directed bumps 208 into engagement with the radially outwardly projecting locking wall 84 and the second shoulder 86.
  • the frangible webs 218 break in succession causing the annular band 194 to separate from the depending annular side wall 168. Once separated, the annular band 194 is free to fall downwardly thereby creating an annular gap between the annular band 194 and the bottom of the upper skirt portion 170.
  • a user may glimpse the external surface 76 and the upwardly extending cylindrical surface 82 of the cylindrical wall 74 and, if these surfaces 76 and 82 are of a contrasting colour to that of the reclosable cap 36, then this may provide a useful visual indication that the closure assembly has been opened.
  • the annular band 194 is free to fall, the length of that fall is limited by the respective pairs of elongate spacers 62 and 64 which prevent the annular band 194 from falling too far and prevent the annular band 194 from contacting the upper flange surface 40.
  • the respective pairs of elongate spacers 62 and 64 limit the angle to the horizontal (i.e., the angle to a plane parallel to the flange 38) that may be occupied by a plane defined by the annular band 194 while the frangible webs 218 are in the process of being broken and while some of them are still intact.
  • the annular band 194 will be raised up compared to a circumferential location, perhaps in a diametrically opposed region of the annular band 170, where the local frangible web 218 has already broken and the annular band 170 has dropped down under gravity.
  • the annular band 170 may drop in those regions where it is free to drop, it is possible to limit how far from a horizontal plane the annular band 170 may be pulled during the opening process. This, in turn, restricts the tendency of a region where the frangible webs 218 are still intact to "tyre over" the annular looking bead 90 so that the annular band 194 never truly separates from the depending annular side wall 168.
  • the respective pairs of elongate spacers 62 and 64 serve the two fold purpose of ensuring that an annular gap exists between the annular band 194 and the upper flange surface 40 when the closure assembly is fully assembled to facilitate gripping by automatic handling equipment, and of ensuring a reliable and full separation of the annular band 194 from the upper skirt portion 170 on opening to provide the closure assembly with a tamper evident capability.
  • the drive members 178 impart a rotational force on the cutter portion 34 which is consequently picked up and caused to rotate with the reclosable cap 36 in an anti-clockwise direction.
  • each of the thread elements 124 on the substantially smooth outer surface 122 is brought into engagement with the helical thread segment 110 of the circumferentially adjacent radially inwardly projecting formation 102 and directed downwardly into the helical channel 118 defined between the helical thread segment 110 and the helical thread portion 114 of the associated guide formation 112.
  • This threaded engagement between the thread elements 124 and the helical channels 118 causes the cutter portion 34 to be driven axially downwardly with respect to the spout portion 32 as its rotated by the drive members 178.
  • This causes the first and second arcuate cutting blades 142 and 144 to pass through the circular aperture 52 and into engagement with the pierceable portion 18.
  • the downward movement of the first and second arcuate cutting blades 142 and 144 is resisted, particularly by the layers of thermoplastic material 14, 16 and 26 which tend to flex and stretch rather than rupture.
  • continued downward and rotational movement causes the cutting edge 156 and cutting teeth 158 to penetrate and cut the pierceable portion 18.
  • the primary instigator of the cutting action is the leading edge of the arcuate cutting blade and providing a second arcuate cutting blade 144 circumferentially spaced from the first 142 effectively provides the cutter portion 34 with two leading edges.
  • the primary cutting action is a tearing action as the penetrating portion of the first and second arcuate cutting blades 142 and 144 continues to rotate. This rucks up the material of the pierceable portion 18 and pushes it to one side, thereby creating an opening in communication with the circular aperture 52 through which the contents of the container may subsequently be dispensed.
  • the cutter portion 34 continues to be driven downwardly for so long as the threaded elements 124 are in threaded engagement with the helical channels 118.
  • this threaded engagement comes to an end and the threaded elements 124 are no longer in engagement even with the lower edges of the helical thread portions 114 of the guide formations 112
  • the cutter portion 34 may continue to rotate under the action of the drive members 178 but will no longer move axially downwardly with respect to the spout portion 32.
  • continued anti-clockwise rotation of the reclosable cap 36 will continue to cause the cap to rise up the threaded configuration 94, lifting the drive members 178 axially out of engagement with the vertical pockets 140.
  • the first radially extending side surfaces 184 slide axially upwardly with respect to the junction of the generally radially outwardly facing surface 138 and the adjacent substantially smooth inner surface 132.
  • the drive members 178 are raised out of engagement with the vertical pockets 140, continued rotation of the reclosable cap 36 will no longer cause rotation of the cutter portion 34 which will have completed the full extent of its travel.
  • the first and second arcuate cutting blades 142 and 144 will have rotated less than one complete revolution and will preferably have rotated through only approximately 270 degrees.
  • the arcuate cutting blades 142 and 144 will not have cut or torn a complete disc out of the material of the pierceable portion 18 which may then fall into the contents of the container. Rather, the torn portion of the material will still be joined to the rest of the pierceable portion 18 by a web of material, thereby avoiding a possible choking hazard should a fully cut portion of the material fall into the contents of the container and be subsequently dispensed unnoticed by a consumer.
  • the recloseable cap 36 may be removed to allow the contents of the container to be dispensed through the spout portion 32.
  • the reclosable cap 36 may be screwed on to the spout portion 32, thereby bringing the helical thread configuration 174 on the inner surface 172 of the depending annular side wall 168 into threaded engagement with the helical thread configuration 94 on the cylindrical neck stretch portion 92 of the cylindrical wall 74.
  • the drive members 178 are no longer able to engage the generally radially inwardly facing surfaces 136 of the inwardly directed tabs 134, even as the reclosable cap 36 approaches full thread engagement. Consequently, the cutter portion 34 does not move on reapplication of reclosable cap 36 or during any subsequent opening and closing operations. Instead, as the reclosable cap 36 approaches full thread engagement, the annular plug 176 provided on the under surface 164 of the circular top 162 is brought into engagement with the substantially smooth inner surface 100 of the cylindrical wall 74 adjacent the annular rim 98 to seal the spout portion 32.
  • the recloseable cap 36 may be screwed on and off the spout portion 32 as many times as desired and offers excellent sealing and re-sealing characteristics.
  • the closure assembly also provides a tamper evident capability to alert a consumer should the contents of the container have been compromised prior to initial opening by them.
  • closure assembly for attachment to an aseptic package having a pierceable portion 18 covering an aperture formed in a layer of fibrous material 12
  • closure assembly may also find use with non-aseptic packages having a pierceable portion 18 defined by a preferential tear line 20 formed in the fibrous material 12.
  • the closure assembly may also find use with other packages and in particular may be formed integrally with a plastics container having an opening that is initially sealed by a foil or other web of material.
  • FIG. 21A Shown in Figure 21A is one embodiment of a three-piece closure assembly 600 in an initial, pre-opening configuration attached to a container 700.
  • the closure assembly 600 comprises a base 510 having a mounting portion 511 configured to be applied/attached to a container 700 to secure the closure assembly 600 to the container 700.
  • Located circumferentially inwards from the neck 512 of the base 510 is a cutter 520.
  • a cap 530 is also provided which is configured to provide a fluid tight seal with the neck 512 of the base 510 when the cap 530 is sealingly engaged with the base 510.
  • Illustrated in Figure 21B is one embodiment of a closure assembly 600 in a pre-opening configuration, immediately prior to the closure assembly 600 being attached to a container 700.
  • the lowermost portion of the cutter 520 is located above a lowermost periphery of the base 510 extending about the flow channel 513 defined by the neck 512, such that the lowermost portion of the cutter 520 is also located above the membrane 580 and/or other structure that initially covers the portion of the container 700 through which the contents of the container 700 will be accessed following initial removal of the cap 530 from the base 510.
  • the portion of the container 700 over which the closure assembly 600, and in particular the cutter 520, is located may be formed from the same material as the remainder of the container 700.
  • the portion of the container 700 positioned underneath the base 510, and in particular the cutter 520 may be configured to and/or made out of a material configured to allow for easier cutting, piercing, etc. by the cutter 520.
  • this portion of the container 700 through which the contents will be accessed following opening of the closure 600 may: be formed having a smaller thickness than the remainder of the container 700; include a scored or otherwise weakened portion; or, as e.g. illustrated by the embodiment of Figure 21B , may be formed of a membrane 580 of different material (e.g.
  • the base 510 and/or base 510 and cutter 520 may be moulded integrally with the container 700, such that the base 510 and/or base 510 and cutter 520 and container 700 are formed as a monolithic assembly.
  • the portion of the container 700 through which the contents of the container 700 will be accessed following initial removal of the cap 530 from the base 510 may initially be sealed by a membrane 580 such as a foil or thin plastic film that is formed with or sealed to the bottom of the mounting portion 511.
  • a membrane 580 such as a foil or thin plastic film that is formed with or sealed to the bottom of the mounting portion 511.
  • the closure assembly 600 is manufactured with the membrane 580.
  • the closure assembly 600 is sealed over an opening in the container 700 through which the contents of the container 700 are inserted prior to gluing or heat sealing of the mounting portion 511 to the container 700.
  • a portion of membrane 580 may be sealed or captured between the surface of the associated container 700 and the bottom of mounting portion 511.
  • the portion of the container 700 through which the contents of the container 700 will be accessed following initial removal of the cap 530 from the base 510 may initially be sealed by any one of, or any combination of a portion of the wall of the container 700, a membrane 580 attached to the container 700 (such as, e.g. illustrated in the embodiment of Figure 21B ) and/or a membrane 580 attached to the mounting portion 511 of the base 510 (such as, e.g. illustrated in the embodiment of Figure 21C ).
  • the membrane 580 may be attached to the base 510 at any point during assembly of the closure assembly 600.
  • FIG. 22 one embodiment of a post-initial opening configuration of the cutter 520 and base 510 are illustrated.
  • the cutter 520 upon initial removal of the cap 530 from the base 510, the cutter 520 is forced downwards relative to the base 510 such that the cutting elements 521 of the cutter puncture, pierce, cut, or otherwise penetrate a portion of the container, such as, e.g. membrane 580 to which the closure assembly 600 is attached and/or the membrane 580 extending along the lower surface of mounting portion 511 to provide a fluid passageway through which the contents of the container can be accessed by a user.
  • the cutter 520 remains in this downwardly displaced post-initial opening configuration depicted in Figure 22 relative to the base 510 during subsequent reapplication and/or removal of the cap 530 from the base 510.
  • Base 510 generally comprises a neck 512 and a mounting portion 511 extending radially outwards from a lowermost portion of the neck 512.
  • the mounting portion 511 is configured to provide an attachment surface along which the closure assembly 600 may be attached via a fluid-tight, hermetic seal to a container.
  • the mounting portion 511 may be provided with an adhesive to secure the base 510 to the container.
  • the mounting portion 511 may be configured to be welded to a container.
  • any other number or combination of other securement elements and/or mounting arrangements may be utilized to attach the base 510 to the container.
  • the closure assembly 600 can be attached to the container along any one of the top surface, the bottom surface, and/or both the top and bottom surfaces of the mounting portion 511.
  • the mounting portion 511 is illustrated as comprising a substantially planar surface that extends substantially perpendicular to the neck 512, in other embodiments the mounting portion 511 may extend at a non-90° angle relative to a longitudinal axis about which the neck 512 is cantered and/or the mounting portion 511 may extend along and be defined by surfaces that are not entirely co-planar.
  • the neck 512 of base 510 is defined at an upper end by an opening 514 that provides access to a flow channel 513 extending though the neck 512.
  • a thread 515 configured to interact with a corresponding thread 531 formed on the cap 530.
  • a tamper-evidencing engagement structure 516 that is configured to interact with a tamper band 532 formed on the cap 530 so as to indicate to a user that the cap 530 has been previously removed from the closure assembly 600.
  • located about an upper surface of mounting portion 511 may optionally be one or more ribs 518 configured to prevent the tamper band 532 from tiring off upon removal of the cap 530 from the base 510.
  • annular bead 517 Located about an innermost surface of the neck 512 at the lowermost end of the neck 512 are one or more radially inwardly extending retention elements, such as annular bead 517.
  • Annular bead 517 has a diameter that is smaller than an outermost diameter of the ribs 523 formed on the exterior of the cutter 520, such that the cutter 520 is prevented from accidentally or unintentionally being removed through the bottom of the base 510.
  • the base 510 may include similar one or more retention beads located about an innermost surface of the neck 512 at the uppermost end of the neck 512 to prevent accidental or unintentional removal of the cutter 520 through the opening 514 of neck 512.
  • the guide elements 540 may comprise one or more locator guides 541, one or more helical guides 542, and/or one or more bottom guides 543 that are positioned on and extend radially inwards from the inner surface of the neck 512 of base 510.
  • the helical guide 542 may be attached to and extend downwardly from a lower portion of locator guide 541.
  • the locator guide 541 and the helical guide 542 may be formed as discrete elements on the interior of the neck 512.
  • the angle ⁇ 1 of the lowermost surfaces of locator guide 541 and/or helical guide 542 relative to the horizontal axis and the angle ⁇ 2 of the uppermost portion of the downward angled portion of bottom guide 543 relative to the horizontal axis may be substantially the same. In other embodiments, these angles may be different, with the angle ⁇ 1 of the lowermost surfaces of the locator guide 541 and/or helical guide 542 being greater or less than the angle ⁇ 2 of the upper most portion of the downward angled portion of the bottom guide 543.
  • the angle ⁇ 3 of the track 544 my correspond to the angle ⁇ 1 of the lowermost surfaces of locator guide 541 and/or helical guide 542 relative to the horizontal axis, the angle ⁇ 2 of the uppermost portion of the downward angled portion of bottom guide 543 relative to the horizontal axis, and/or an angle in between the angle ⁇ 1 of the lowermost surfaces of locator guide 541 and/or helical guide 542 relative to the horizontal axis and the angle ⁇ 2 of the uppermost portion of the downward angled portion of bottom guide 543 relative to the horizontal axis.
  • the angle ⁇ 1 of the lowermost surfaces of locator guide 541 and/or helical guide 542 relative to the horizontal axis is approximately 0° and 70°, more specifically between approximately 15 ° and 55°, and in particular approximately between 20° and 50°.
  • the angle ⁇ 2 of the uppermost portion of the downward angled portion of bottom guide 543 relative to the horizontal axis is approximately 5° and 60°, more specifically between approximately 10 ° and 45°, and in particular between approximately 15° and 35°.
  • the angle ⁇ 3 of the track 544 relative to the horizontal axis is approximately 5° and 45°, more specifically between approximately 10° and 40°, and in particular between approximately 25° and 35°.
  • a portion of the bottom surface of the helical guide 542 and/or locator guide 541 and a portion of the upper surface of the downwardly angled portion of the bottom guide 543 define a track 544.
  • the track 544 may be defined between the upper surface of the downwardly angled portion of the bottom guide 543 and the bottom surface of the helical guide 542.
  • the track 544 may be defined between the upper surface of the downwardly angled portion of the bottom guide 543 and the bottom surface of the locator guide 541.
  • the angle ⁇ 1 of the track 544 as measured relative to the horizontal axis is approximately 10° and 40°, more specifically between approximately 15 ° and 25°, and in particular approximately 20°
  • FIGS. 24A-24F various views of a cutter 520 according to one embodiment are illustrated.
  • the upper portion of cutter 520 is defined by a cylindrical body 528 that is defined at its lower end by a bottom rim 522.
  • Formed from and extending downwards from or about at least a portion of the periphery of the bottom rim 522 are one or more cutting elements 521.
  • the cutting elements 521 are configured to create an opening into the container upon initial removal of the cap 530 from the base 510.
  • the cutting elements 521 are arranged such that the cutting elements 521 do not extend about the entirety of the periphery of the bottom rim 522, such that a portion of the container remains uncut following initial removal of the cap 530, so as to prevent the cut portion of the container from being entirely separated from and falling into the interior of the container.
  • the cutting element 521 may comprise a first set 521a and a second set 521b of cutting elements 521.
  • each of the first set 521a and second set 521b of cutting elements 521 may be formed having a unitary, monolithic, serrated blade surface formed of a series of interconnected teeth 529.
  • the tips of each of the teeth 529 lie along the same plane and extend an equal distance downwards relative to the bottom rim 522 of the cutting element 521.
  • the angular lengths of the first set 521a and second set 521b of cutting elements 521 differ.
  • the length of the first set 521a as measured in a circumferential direction may be less than the length of the second set 521b as also measured in a circumferential direction.
  • the first set 521a may act as the leading cutting element 521 and the second set 521b may act as the lagging cutting element 521.
  • the lagging second set 521b of the cutting element 521 may be configured to radially push outwards the portion of the container cut/perforated by the leading first set 521a of cutting elements 521, so as to prevent the cut portion of the container from occluding the opening in the container formed by the cutter 520.
  • the angular distance A between the ends of the first set 521a is between approximately 35° and 55 °, and more specifically approximately 45 °.
  • the angular distance B between the ends of the second set 521b is between approximately 105 ° and 120 °, and more specifically approximately 112.5°.
  • an angular distance C is defined between the clockwise facing end of the first set 521a and the counter-clockwise facing end of the second set 521b is between approximately 60° and 75 °, and more specifically approximately 67.5 °.
  • the cutter 520 is configured to be rotated between approximately 90° and 130 °, more specifically between approximately 100 ° and 120°, and in particular approximately 110° upon initial removal of the cap 530 from the base 510.
  • the cutter 520 is configured to create a generally circular opening through the container, with between approximately 280° and 320 °, more specifically between approximately 290 ° and 310°, and in particular approximately 300° of the outer circumference of the opening being detached from the remainder of the container following removal of the cap 530 from the closure assembly 600.
  • the remaining between approximately 40° and 80 °, more specifically between approximately 50 ° and 70°, and in particular approximately 60° of the outer circumference of the opening formed in the container remains uncut and attached to the container.
  • the cutting element 521 may be formed from any number of sets of cutting elements 521 having any number of configurations.
  • the cutting element may be formed having any number of blade-like elements, with the lengths, sizes, shapes, and other characteristics of the each of the blade-like elements and/or the teeth 529 forming the blade-like elements being the same of different form the other blade-like elements and/or teeth 529 forming the cutting element 521.
  • ribs 523 located along an exterior surface of the body 528 of cutter 520 are one or more radially outwardly extending ribs 523.
  • the ribs 523 extend along a portion of the exterior surface of the body 528 of the cutter 520 located between the top of the cutter 520 and the bottom rim 522.
  • the portion of the exterior surface of body 528 of the cutter 520 extending radially between adjacent ribs 523 defines a keyway 524.
  • the ribs 523 extend at a non-zero degree angle relative to the horizontal axis.
  • the ribs 523 extend downward relative to the horizontal axis at an angle ⁇ 4 between approximately 5° and 60°, more specifically between approximately 10 ° and 50°, and in particular approximately 15° and 35°.
  • the cutter 520 may be formed with any number of ribs 523. In one embodiment, the cutter 520 may be formed with three or more ribs 523 to increase the stability of the movement of the cutter 520 during rotation of the cutter 520 relative to the base 520 by preventing the ribs 523 from being cocked and jammed within the neck 512 of the base 510 during rotation of the cutter relative to the base 510, as well as to provide a more secure, smooth and reliable movement of the cutter 520 in the rotationally downward direction during the initial removal of the cap 530 from the base 510.
  • the angle ⁇ 4 of the ribs 523 may generally corresponds to any one of: the angle ⁇ 3 of the track 544, the angle ⁇ 1 of the lowermost surfaces of locator guide 541 and/or helical guide 542 relative to the horizontal axis, the angle ⁇ 2 of the uppermost portion of the downward angled portion of bottom guide 543 relative to the horizontal axis, and/or an angle in between the angle ⁇ 1 of the lowermost surfaces of locator guide 541 and/or helical guide 542 relative to the horizontal axis and the angle ⁇ 3 of the uppermost portion of the downward angled portion of bottom guide 543 relative to the horizontal axis.
  • each rib 523 may define a stop surface that is configured to interact with the retention element, such as e.g. annular bead 517, that may be provided along the bottom of the interior surface of the neck 512 of base 510.
  • the top end surface of each rib 523 may define a stop surface configured to interact with a retention element that may be provided along the inner surface of 512 at a location about the opening 514 of the neck 512.
  • each fin 526 defines a counter-clockwise facing surface 526a and a clockwise facing surface 526b.
  • An engagement surface 527 is defined by the intersection of the clockwise facing surface 526b of the fins 526 with the inner surface of the body 528 of the cutter 520.
  • Cap generally comprises a top panel 534 and a skirt 533 extending generally perpendicularly downwards from an outer periphery of the top panel 534.
  • the cap 530 may be provided with a tamper evidencing feature, such as a tamper band 532, which extends downwards from a lower portion of the skirt 533.
  • a thread 531 configured for engaging the corresponding thread 515 formed on the neck 512 of base 510.
  • one or more sealing elements 536 configured to engage the opening 514 of neck 512 to provide a fluid-tight seal when the cap 530 is sealingly attached to the base 510.
  • the tabs 535 Extending vertically downwards from a bottom surface of the top panel 534 in a direction substantially parallel to the vertical axis are one or more drive tabs 535.
  • the tabs 535 may be generally flexible and elastic, while in other embodiments the tabs 535 may be generally rigid.
  • the clockwise facing ends of the tabs 535 may define a bevelled surface 535a.
  • the drive tabs 535 are generally arranged and extend along a circular periphery located radially inwards from the inner surface of skirt 533. In other embodiments, the tabs 535 may extend downwards from the top panel 534 along a direction angled at a non-90° angle with respect to the inner surface of the skirt 533. In some embodiments, the tabs 535 may also be spaced and arranged about the top panel 534 in a non-circular manner.
  • closure assembly 600 Operation of the closure assembly 600 according to one embodiment is described with reference to Figures 21 , 22 , and 27B .
  • the cap 530 is attached to base 510 via engagement of the thread 531 of cap 530 to the corresponding thread 515 of base 510 to provide a fluid tight seal of the flow channel 513.
  • the cutter 520 in this initial, assembled configuration, the cutter 520 is located within the neck 512 of base 510, with the ribs 523 of cutter 520 resting atop the upper surfaces 543 of the bottom guides 543. This interaction of the ribs 523 with the upper surfaces 543 of the bottom guides 543 prevents the cutter from moving downwards relative to the base 510 prior to the initial removal of the cap 530. In the initial assembled configuration, the bottommost portion of cutter 520 and cutting elements 521 do not extend downwards past the bottommost portion of the neck 512.
  • the cap 530 is rotated in a counter-clockwise direction relative to base 510 to remove the cap 530.
  • the thread 531 of the cap 530 moves upwards along the thread 515 of the base 510, causing the cap 530 to move in an upwards direction relative to the base 510.
  • the tamper band 532 engages the tamper-evidencing structure 516 of the base, causing the tamper band 532 to break, so as to indicate to a user that the container sealed by the closure assembly 600 has been opened.
  • the cutter 520 is rotated in a counter-clockwise direction relative to base 510.
  • This counter-clockwise rotation of the cutter 520 results in the ribs 523 of the cutter .520 being moved along the bottom guide 543 and into the track 544 defined between the upper surface of the downward angled portion of bottom guide 543 and the lower surface of the helical guide 542.
  • the continued rotation of the cap 530 results in the downward rotational movement of the cutter 520 relative to the base 510 at an angle defined generally by the angle of the track 544.
  • the teeth 529 of the blade forming the cutting element 521 are brought into engagement with and pierce through the portion of the container.
  • the continued downward rotational movement of the cutter 520 causes the cutting element 521 to create a larger circular opening in the container that provides access to the contents of the container.
  • the cutter 520 continues to rotate and move downwards in response to the initial counter-clockwise movement of the cap 530 until the bottom end surfaces 525 of ribs 523 reach the annular bead 517 formed about the lower end of the opening 514 of the base 510, at which point the smaller diameter of the annular bead 517 relative to the outer diameter of the ribs 523 prevents further downwards movement of the cutter 520 relative to the base 510.
  • the movement of the cutter into the post-initial assembled configuration results in an opening being created in the container defined by a cut extending approximately 300° about the opening.
  • the extent to which the container is cut can be configured by varying, among other features, the arrangement, number, spacing, etc. of the cutting elements 521.
  • the configuration of the cutter ribs 523 and/or the guide elements 540 of base 530 e.g. length, pitch, etc.
  • the base 510, cutter 520, and cap 530 portions of the closure assembly 600 can be assembled in any number of ways to form the pre-initial opening assembled configuration of closure assembly 600, such as e.g. illustrated in Figures 21A and 21B .
  • the base 510, cutter 520 and cap 530 can be moulded or otherwise formed and provided as separate, individual components that are subsequently assembled together to form the pre-initial opening configuration of closure assembly 600.
  • any combination of the base 510, cutter 520, and cap 530 can be formed or moulded as integral and/or monolithic structures, which are subsequently separated and assembled to form closure assembly 600.
  • base 510 and cutter 520 may be moulded as a single, unitary and optionally monolithic piece.
  • one or more frangible bridges 550 initially connect a portion of cutter 520 (such as, e.g. along bottom rim 522) to a portion of base 510.
  • the lower portion of cutter 520 is shown as being moulded above and attached to an upper portion of base 510, in other embodiments an upper portion of cutter 520 can be moulded below and attached to a lower portion of base 510.
  • cutter 520 can be moulded radially inwards and partially or entirely within base, and cutter 520 and base 510 can be attached via frangible bridges 550 along the top, bottom, and/or top and bottom portions of base 510 and/or cutter 520.
  • the base 510 and cutter 520 By moulding the base 510 and cutter 520 as a single unit, such as shown, e.g. in the embodiment of Figures 26A and 26B , production costs and time involved in forming and assembling the base 510 and cutter 520 can be minimized. Furthermore, in embodiments in which the base 510 and cutter 520 are moulded such that the cutting element 521 is located above the lowermost portion of the opening 514 of the base 510, such as e.g. illustrated in Figures 26A and 26B , damage to the cutting element 521 that may occur during assembly of the cutter 520 into the base 510 may be minimized or prevented.
  • the cutting elements 521 are located within the neck 512 of the base 510, and are thereby protected from damage that may otherwise occur in the event that, e.g. forces are applied to the top of the cutter 520 and /or bottom of the base 510 (such as, e.g. during assembly of the closure assembly 600).
  • the cutter 520 and base 510 may be formed such that cutter 520 is moulded in a position relative to the base 510 that corresponds to a relative alignment of the base 510 and cutter 520 in the pre-initial opening configuration of the closure assembly 600.
  • the assembly of the cutter 520 and base 510 may require only an axial movement (and no rotational movement) of the base 510 relative to the cutter 520, or vice versa.
  • the cutter 520 and base 510 may be moulded such that the one or more keyways 524 extending between adjacent ribs 523 of the cutter 520 are positioned directly above the one or more locator guides 541 formed on the inner surface of the neck 512 of base 510.
  • Such an embodiment may allow for minimization of closure assembly 600 assembly time, as once the integrally moulded cutter 520/base 510 assembly is ready to be assembled, all that is required is to provide an axial force sufficient to break the frangible bridges 550 between the cutter 520 and base 510 so as to properly position the cutter 520 within base 510.
  • the alignment of the keyways 524 over the locator guides 543 allow the cutter 520 to be moved vertically downwards relative to base 510.
  • the locator guides 543 are also configured to guide the cutter 520 axially downwards and prevent rotation of the cutter 520 during assembly of the cutter 520 into the base 510.
  • the assembly of the cutter 520 into the base 510 may occur before, during or after assembly of the cap 530 onto the base 510. Additionally, the assembly of the cutter 520 into the base 510 may result from the downwards movement of the cutter 520 relative to the base 510, the base upwards relative to the cutter 520, and/or the movement of both the cutter 520 and base 510 relative to one another.
  • the cutter 520 may be pushed into base 510 prior to application of the cap 530 to the base 510 during assembly of closure assembly 600.
  • the cutter 520 may be pushed into base 510 to assemble closure assembly 600 as a result of the application of the cap 530 to the base 510 during assembly of closure assembly 600.
  • cap 530 may positioned over the top end of cutter 520 to complete the assembly of the closure assembly 600.
  • the cap 530 is moved downwards relative to the base 510, either by pushing the cap 530 downwards or by raising the base 510 upwards.
  • the lower surface of the top panel 534 of the cap 530 comes into contact with the upper end of cutter 520, following which further downward movement of the cap 530 causes the frangible bridges 550 between cutter 520 and base 510 to break.
  • the continued downwards movement of the cap 530 relative to base 510 causes the cutter 520 to be moved with the cap 530 in a downwards direction relative to the base 510.
  • the cap 530 is then screwed onto the base 510 (either by rotation of the cap 530 relative the base 510, rotation of the base 510 relative to the cap 530 or both) to complete the assembly of the closure assembly 600.
  • the upper surface of bottom guide 543 may act as a stop which engages with the ribs 523 to allow the cutter 520 to be properly aligned at a desired axial position upon assembly of the cutter 520 and base 510 elements.
  • the drive tabs 535 are able to deflect and click over the fins 526, allowing the cap 530 to be rotated relative to the base 510 without causing a resultant rotation of the cutter 520 relative to the base 510 during this assembly step.
  • the tabs 535 of the cap 530 may be flexible and elastic.
  • the tabs 535 upon initial application of the cap 530 onto the neck 512 of the base 510, the tabs 535 are configured to deflect inwardly as the tabs 535 come into contact with the fins 526, allowing the tabs 535 to deflect and move over the fins 526 of the cutter 520 such that the cutter 520 remains stationary as the cap 530 is rotated relative to the base 510 during threading of the cap 530 onto the base 510.
  • the tabs 535 Upon passing over the fins 526, the tabs 535 generate an audible click as the radially inwardly deflected tabs 535 return to their initial, unstressed, generally perpendicularly downwardly extending configuration.
  • the leading clockwise facing ends of drive tabs 535 may include a bevelled surface 535a, as shown e.g. by the embodiment of cap 530 shown in Figure 25A to allow the tabs 535 to more easily deflect and pass over fins 526 during assembly of closure assembly 600.
  • the cap 530 does not need to be oriented or indexed prior to screwing the cap 530 to the base 510 during assembly of the closure assembly 600.
  • This ability to screw cap 530 onto base 510 without indexing or orienting the cap 530 allows for easier, more reliable and faster assembly of the closure assembly 600 as compared to three-piece closures in which either the cap has to be indexed/oriented prior to assembly (adding to the time and cost of assembling closures) or in which the threaded cap is pushed or snapped onto the threaded base to apply the closure (which does not allow for a robust engagement between the cap and base once the closure is assembled).
  • the ability to assemble closure assembly 600 by screwing cap 530 onto base 510 without indexing or orienting the cap 530 beforehand provides for a robust engagement between the cap 530 and base 510 that can be quickly and easily effectuated.
  • the ability to apply to cap 530 without indexing or orienting also allows the cap 530 to be applied using a high-speed rotary assembler, which further decreases the time and costs associated with assembling closure assembly 600.
  • FIG. 28A-28F another embodiment of a base 510 that may be used to form closure assembly 600 is illustrated.
  • the embodiment of base 510 of Figures 28A-28F share many similar features to the embodiment of base 510 illustrated in Figures 23A-23F .
  • the guide elements 540 of the embodiment of base 510 of Figures 28A-28F are formed without a helical guide 542.
  • Such an embodiment of base 510 as illustrated in Figures 28A-28F may be useful, e.g. where minimizing the materials used to form the base 510 may be desired for both weight and/or cost minimization considerations.
  • cap 530 may be formed as a flip-top cap 530'.
  • the top panel 534 of cap 530' may be formed about an opening 537 that extends from a top surface to a bottom surface of the top panel 534.
  • Attached about a portion of the outer periphery of the cap 530' is a hinged cover 538 that is configured to fluidly seal the opening 537 when the cover 538 is in a closed position.
  • the opening 537 may initially be closed by a removable element, such as e.g. a ring pull-tab, foil, etc. that is removed prior to initial opening of the container.
  • the flip-top cap 530' of Figures 29A-29E and the corresponding neck 512' of the base 510' (not shown) to which the flip-top cap 530' is to be attached may be formed without threads 515, 531.
  • the cap 530' may be formed with a retention member, such as e.g.
  • annular bead 539 that is configured to snap-over, or otherwise engage a corresponding structure of the base 510' (not shown) to prevent the cap 530' from being removed from the base 510' once the cap 530' and base 510' are assembled.
  • the closure assembly 600' is assembled in a manner substantially the same as any such methods of assembling closure assembly 600 described with respect to embodiments of closure assembly 600 incorporating a threaded cap 530 and base 510 design.
  • a closure assembly 600' incorporating a flip-top cap 530' to effectuate piercing/puncturing/cutting of a container to which the closure assembly 600' is attached is similar to the operation of a closure assembly 600 incorporating a threaded cap 530 and base 510 design as e.g. described previously with respect to Figures 21 and 22 .
  • counter-clockwise rotation of the flip-top cap 530' relative to the base 510' results in the tabs 535' of cap 530' engaging the fins 526 of cutter 520, causing the cutter 520 to be translated rotationally downwards to create an opening in the container.
  • writing and/or symbols may be provided about the flip-top cap 530' to instruct the user to rotate the flip-top cap 530' relative to the base 510' to effectuate the initial formation of the opening into the container to allow for access to the container contents.
  • the instructions may be provided in the form of markings 560 located about a portion of the top panel 534' of cap 530'.
  • the flip-top cap 530' may be provided with one or more lugs 570 extending radially inwards from the inner surface of the skirt 533'.
  • the lugs 570 may be configured to engage with one or more abutment or stop features (not shown) formed about the neck 512' of the base 510' such that following the initial rotation of the cap 530' to effectuate the creation of an opening in the container, further rotation of the cap 530' relative to the base 510' is prevented.
  • FIG. 30A-30F Illustrated in Figures 30A-30F is another embodiment of a base 610 that may be used to form closure assembly 600.
  • the embodiment of base 610 shown in Figures 30A-30E is similar to the embodiment of base shown in Figure 23A-23F .
  • the guide elements 640 of base 610 may compromise one or more downwardly angled helical grooves 645 formed within and extending into the neck 612 of the base 610. Located along the grooves 645 and extending radially inwards from the inner surface of the neck 612 defining grooves 645 are on or more abutment element 646.
  • FIG. 31A-31F Shown in Figures 31A-31F is one embodiment of a cutter 620 that may, e.g. be used with a base 610 embodiment as illustrated in Figures 30A-30F to form closure assembly 600. Similar to the cutter 520 embodiment as illustrated in Figures 24A-24F , the cutter 620 of Figures 31A-31F may comprise a first set 621a and a second set 621b of cutting elements 621. The cutter 620 may also comprise one or more outwardly extending ribs 623 formed about the outer surface of the body 628 of the cutter 620. Additionally, one or more fins 626 extend radially inwards from the inner surface of the body 628 of cutter 620.
  • the height of the body 628 of the cutter 620 of the embodiment of Figures 31A-31F is shorter, as are the ribs 623 that are formed about the exterior surface of the body 628 of the cutter 620 as compared to the ribs 523 of cutter 520.
  • FIG. 32A and 32B one embodiment of a cap 630 is shown.
  • the cap 630 of the embodiment of Figures 32A and 32B is similar to the cap 530 embodiment discussed with respect to Figures 25A and 25B , expect the arrangement of the drive tabs 635 of cap 630 is varied from that of the cap 530 of Figures 25A and 25B .
  • the base 610 of Figures 30A-30F , the cutter 620 of Figures 31A-31F and the cap 630 of Figures 32A and 32B may be used together to form closure assembly 600.
  • the resultant closure assembly 600 operates in a manner substantially similar to the closure described with reference, e.g. to Figures 21 , 22 and 27 above, with the primary difference in the closure embodiment 600 formed having base 610, cutter 620 and cap 630 being in the engagement of the ribs 623 of the cutter 620 with the guide elements 640 of base 610 during initial opening of the closure assembly 600.
  • the lengths of the ribs 623 of the cutter 620 generally correspond to and are preferably no longer than the upper portion 647 of the helical grooves 645 extending between the abutment element 646 and the upper end of each groove 645 formed in the base 610 embodiment of Figures 30A-30F .
  • the ribs 623 of the cutter 620 are positioned within these upper portions 647 of the grooves 645 of base 610.
  • the abutment elements 646 prevent the cutter 620 from inadvertently being moved downwards relative to the base 610 prior to initial removal of the cap 630 from the base 610.
  • the rotational removal of the cap 630 from the base 610 provides sufficient force for the ribs 623 to overcome the engagement with the abutment elements 646, and the ribs 623 are guided rotationally downwards within the lower portions 648 of the grooves as the cap 630 continues to move rotationally upwards along the threads 615 of base 610.
  • FIGs 33A and 33B Illustrated in Figures 33A and 33B are two embodiments of moulding arrangements that may be used to form the base 610 and cutter 620.
  • the cutter 620 may be moulded and attached above the base 610, with frangible bridges 650 connecting a lower portion of the cutter 620 to an upper portion of the base 610.
  • the cutter 620 may be moulded and attached below the base 610, with frangible bridges 650 connecting an upper portion of the cutter 620 to a lower portion of the base 610.
  • the cutter 620 is positioned within base 610 in an arrangement as illustrated e.g. in Figures 34A and 34B .
  • the inner diameter of the neck 612 of the base 610 is slightly smaller than the outermost diameter of the ribs 623 of the cutter 620. Additionally, located about the bottom of neck 617 is an annular bead 617 also having a diameter that is smaller than the outermost diameter of the ribs 623. Accordingly, in addition to requiring force to break the frangible bridges 650 connecting the base 610 and cutter 620, force is also required to push or snap the ribs 623 past the smaller diameter portions of the base 610 and into engagement with the upper portions 647 of the grooves 645 formed within the wall of neck 612 as illustrated, e.g. in Figures 34A and 34B .
  • the positioning of the cutter 620 within base 610 may be accomplished prior to or after attachment of the cap 630 to the base 610.
  • positioning of the cutter 620 within the base 610 may be effectuated by and occur during the step of attaching the cap 630 to the base 610, with the downward movement of the cap 630 relative to the base 610 during attachment of the cap 630 being used to break the frangible bridges 650 and push ribs 623 into engagement with the upper portions 647 of the grooves 645 formed within the wall of neck 612.
  • Positioning of the cutter 620 within base 610 for the moulded arrangement illustrated in Figure 33B may be accomplished in manners similar to those described with reference to Figure 33A . Specifically, in some embodiments, positioning of the cutter 620 within the base 610 for the moulded arrangement of Figure 33B may occur prior to or after attachment of the cap 630 to the base 610.
  • positioning of the cutter 620 within the base 610 for the moulded arrangement of Figure 33B may be effectuated by and occur during the step of attaching the cap 630 to the base 610.
  • the cap 630 may be moved downwards relative to the base 610 to attach the cap 630 to base 610.
  • the downward force imparted by the cap 630 onto the base 610 may provide a force sufficient to break the frangible bridges 650 and push ribs 623 past the annular bead 617 and past the smaller diameter portion of the neck 612 and into engagement with the upper portions 647 of the grooves formed within the wall of neck 612.
  • the term “coupled” or “attached to” means the joining of two components directly or indirectly to one another. Such joining may be stationary in nature or movable in nature. Such joining may be achieved with the two members and any additional intermediate members being integrally formed as a single unitary body with one another or with the two members or the two members and any additional member being attached to one another. Such joining may be permanent in nature or alternatively may be removable or releasable in nature.
  • the relative dimensions, including angles, lengths and radii, as shown in the Figures are to scale. Actual measurements of the Figures will disclose relative dimensions, angles and proportions of the various exemplary embodiments. Various exemplary embodiments extend to various ranges around the absolute and relative dimensions, angles and proportions that may be determined from the Figures. Various exemplary embodiments include any combination of one or more relative dimensions or angles that may be determined from the Figures. Further, actual dimensions not expressly set out in this description can be determined by using the ratios of dimensions measured in the Figures in combination with the express dimensions set out in this description. It should also be understood that the terminology is for the purpose of description only and should not be regarded as limiting.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Closures For Containers (AREA)
EP18193308.6A 2017-09-07 2018-09-07 Verschlussanordnung Withdrawn EP3453638A1 (de)

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US15/698,348 US10676261B2 (en) 2017-09-07 2017-09-07 Closure assembly

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US10676261B2 (en) 2020-06-09
US20230322451A1 (en) 2023-10-12

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